Nanotubes and Bucky Balls

Nanotubes
The single wall is created when a single molecular layer of graphite is rolled to form a tube structure. Also, multilayer nanotubes that form a coaxial assembly of the single layer tubes inside one another. Basically they are one-dimensional objects with a well-defined direction along the nanotube axis that is analogous to the in-plane directions of graphite.

Bucky Balls
A truncated icosahedron, the most round symmetrical object created by man. They are purely carbon based and can withstand tremendous amounts of force. A bucky ball launched at 24,000km/h and was slammed into a steel plate and merely bounced back with ablsolutly no change.

These molecular creations all have a strenth per weight that is of 10 to 100 times greater than steel or almost any man-made alloy we have. What are some uses for these structures?

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Nanotubes
The single wall is created when a single molecular layer of graphite is rolled to form a tube structure. Also, multilayer nanotubes that form a coaxial assembly of the single layer tubes inside one another. Basically they are one-dimensional objects with a well-defined direction along the nanotube axis that is analogous to the in-plane directions of graphite.

Bucky Balls
A truncated icosahedron, the most round symmetrical object created by man. They are purely carbon based and can withstand tremendous amounts of force. A bucky ball launched at 24,000km/h and was slammed into a steel plate and merely bounced back with ablsolutly no change.

These molecular creations all have a strenth per weight that is of 10 to 100 times greater than steel or almost any man-made alloy we have. What are some uses for these structures?

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A tube CANNOT be a one-dimensional structure. Want to try that one again??

Compounds then, what about a silicon composite for example? Nanotubes could be for distributing electronic signals. For all I know, they could be the key to a super-advanced microchip? I'm just throwing ideas around, any other thoughts?

Compounds then, what about a silicon composite for example? Nanotubes could be for distributing electronic signals. For all I know, they could be the key to a super-advanced microchip? I'm just throwing ideas around, any other thoughts?

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I cannot think of any reason at all why they would have any applications involving computing or electronics in general. Even though carbon is classed as a conductor, it's a very poor one compared to many other materials.

The real benefits are going to be in it's strength - and that why I said structural applications.

pjdude1219screw watergate i want to know about zaragateValued Senior Member

I cannot think of any reason at all why they would have any applications involving computing or electronics in general. Even though carbon is classed as a conductor, it's a very poor one compared to many other materials.

The real benefits are going to be in it's strength - and that why I said structural applications.

I cannot think of any reason at all why they would have any applications involving computing or electronics in general. Even though carbon is classed as a conductor, it's a very poor one compared to many other materials.

The real benefits are going to be in it's strength - and that why I said structural applications.

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With a strength 100 times greater than steel, its uses in structure would be nano-hardware. Since you did mention that carbon could not be used before any other conductor, you are right, electronic usage for nanotubes is highly unliklely. Nano-structures is their future. Quote me if you have any other ideas.

Carbon nanotubes have some battery applications, they have potential for stealth aircraft coatings and composite airfoil structures. They are fireproof and well insulating. Being tubes, they can be used as filters and drug delivery systems.

Carbon nanotubes have some battery applications, they have potential for stealth aircraft coatings and composite airfoil structures. They are fireproof and well insulating. Being tubes, they can be used as filters and drug delivery systems.

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I can buy the fact that they would have good insulating properties, but FIREPROOF? I can't accept that - they're made of carbon and carbon burns.

I know a scientist who is developing this material for fireproof suits. It has much better fire proofing qualities than nomex. Electrodes for EDM are made of carbon. I could be wrong about it's insulating properties. Apparently, it is the best thermal conductor known. The properties of nanotubes are much different than that of pure carbon, the structure makes all the difference.